Recycling limits the lifetime of actin turnover

Abstract

AbstractIntracellular organization is largely mediated by the actin turnover. Cellular actin networks consume matter and energy to sustain their dynamics, while maintaining their appearance. This behavior, called ‘dynamic steady state’, enables cells to sense and adapt to their environment. However, how structural stability can be maintained during the constant turnover of a limited actin monomer pool is poorly understood. To answer this question, we developed an experimental system using actin bead motility in a compartment with a limited amount of monomer. We used the speed and the size of the actin comet tails to evaluate the system’s monomer consumption and its lifetime. We established the relative contribution of actin assembly, disassembly and recycling for a bead movement over tens of hours. Recycling mediated by cyclase-associated proteins is the key step in allowing the reuse of monomers for multiple assembly cycles. Energy supply and protein aging are also factors that limit the lifetime of actin turnover. This work reveals the balancing mechanism for long-term network assembly with a limited amount of building blocks.